CN1382180A - Halogen-free flame-retardant composition - Google Patents

Halogen-free flame-retardant composition Download PDF

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CN1382180A
CN1382180A CN00808131A CN00808131A CN1382180A CN 1382180 A CN1382180 A CN 1382180A CN 00808131 A CN00808131 A CN 00808131A CN 00808131 A CN00808131 A CN 00808131A CN 1382180 A CN1382180 A CN 1382180A
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melamine
polymeric amide
ester
compound
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CN100410303C (en
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P·A·范德斯佩克
M·L·M·波斯
W·A·C·罗维尔斯
M·范古尔普
H·N·A·M·门廷
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DSM IP Assets BV
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DSM NV
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    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08KUse of inorganic or non-macromolecular organic substances as compounding ingredients
    • C08K5/00Use of organic ingredients
    • C08K5/49Phosphorus-containing compounds
    • C08K5/51Phosphorus bound to oxygen
    • C08K5/53Phosphorus bound to oxygen bound to oxygen and to carbon only
    • C08K5/5317Phosphonic compounds, e.g. R—P(:O)(OR')2
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08KUse of inorganic or non-macromolecular organic substances as compounding ingredients
    • C08K5/00Use of organic ingredients
    • C08K5/0008Organic ingredients according to more than one of the "one dot" groups of C08K5/01 - C08K5/59
    • C08K5/0066Flame-proofing or flame-retarding additives

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  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Medicinal Chemistry (AREA)
  • Polymers & Plastics (AREA)
  • Organic Chemistry (AREA)
  • Compositions Of Macromolecular Compounds (AREA)
  • Fireproofing Substances (AREA)

Abstract

The invention relates to a halogenfree, flame-retardant composition that comprises at least (A) an organic phosphorus compound and (B) melamine or a compound derived from melamine, or a melamine-phosphorus compound (AB) and a polymer compound comprising an olefine having 2-12 carbon atoms and 0.1-30 weight % (relative to the weight of the polymer compound) of a compound containing acid, acid anhydride or epoxy groups. The invention also relates to a polycondensate composition that contains the flame-retardant composition according to the invention. The flame-retardant composition according to the invention presents the advantage that the burning time of the polycondensate composition in which the composition according to the invention is used is substantially shortened. Preferably the flame-retardant composition is used in polyesters or polyamides.

Description

Halogen-free flame-retardant composition
The present invention relates to a kind of halogen-free flame-retardant composition, wherein comprise at least a organo phosphorous compounds (A) and melamine or a kind of from melamine derived compounds (B) or a kind of melamine-phosphorus compound (AB).
A kind of like this composition is learnt from WO 99/02606, this patent gazette has been described polybutylene terephthalate (PBT) composition that contains a kind of halogen-free flame-retardant composition, this flame retardant composition consist of Resorcinol-two (diphenyl phosphate) (RDP) or methyl-phosphorous acid three (methylol) propyl alcohol ester and melamine cyanurate or melam.Described patent gazette has also been described a kind of polymeric amide-6 composition that contains halogen-free flame-retardant composition, three (methylol) the propyl alcohol ester and the melamine cyanurate or the melam that consist of methyl-phosphorous acid of this flame retardant composition.
Shortcoming according to the composition of bleeding edge is, can use the condensation polymer composition of this flame retardant composition, especially contains the polymeric amide and the polymer blend of glass fibre, and its flame retardant performance does not satisfy peak demand as yet.Specifically, the afterfire time is generally all oversize, and under many circumstances even be longer than for 30 seconds, its result can't reach the V-O classification according to the breadboard UL-94 test of insurance underwriter.Therefore, it is desirable to shorten the afterfire time, promptly a kind of composition is the incendiary time after removing flame.Used according to the condensation polymer composition of flame retardant composition of the present invention thereby can perhaps use more a spot of flame retardant composition just can obtain having the condensation polymer composition that is similar to disclosed those flame retardant performance among the WO 99/02606 such as reaching better UL-94 classification.
People such as present inventor now have surprisingly been found that, contain according to the fire retardant composition (A)+(B) of bleeding edge or the afterfire time of condensation polymer composition (AB), as long as this flame retardant composition also contains a kind of polymer compound (C), just can shorten, wherein (C) comprises at least a at least a compound that contains acid, acid anhydrides or epoxide group of alkene type and 0.1~30% (weight) (for the weight of this polymer compound) that 2~12 carbon atoms are arranged.
Another part of the present invention is a kind of condensation polymer composition that contains according to flame retardant composition of the present invention.Another advantage according to condensation polymer composition of the present invention is, is not less than or significantly is not lower than the mechanical property according to the condensation polymer composition of bleeding edge that those do not contain composition (C) according to the mechanical property of condensation polymer composition of the present invention.
As composition (C), contain a kind of polymer compound according to flame retardant composition of the present invention, the latter comprises at least a at least a compound that contains acid, acid anhydrides or epoxide group of alkene and 0.1~30% (weight) (for the weight of this polymer compound) that 2~12 carbon atoms are arranged.Compounds suitable for use is for example to contain a kind of ethene, propylene or ethylene-propylene copolymer that contains the comonomer of acid, acid anhydrides or epoxide group of 0.1~30% (weight) (for the weight of copolymer compound).Described polymkeric substance also can contain the comonomer that those do not contain above-mentioned group, for example acrylate or vinyl-acetic ester.Be preferably, this polymer compound contains a kind of compound that contains acid, acid anhydrides or epoxide group of 0.5~12% (weight) (for the weight of this polymer compound).This type of examples for compounds is vinylformic acid, methacrylic acid, maleic anhydride, glycidyl acrylate and glycidyl methacrylate.
This polymer compound is a kind of compound that has based on the general chemical constitution of E, X and Y preferably in the embodiment at one, and wherein E represents the residue that ethene residue, X representative generate from following compound In the formula
R 1=alkyl residue of 1~8 carbon atom arranged
R 2=H, CH 3Or C 2H 5
And Y represents one from (alkyl) glycidyl acrylate residue of generating of glycidyl methacrylate for example.
Be preferably, contain 40~90% (weight) E, 1~40% (weight) X and 0.5~20% (weight) Y based on the polymer compound of E, X and Y, the summation of these quantity equals 100% (weight).
Have based on the use of concentration in the halogen-containing flame retardant polymer blend of the polymer compound of the chemical constitution of E, X and Y with 1~20% (weight), from EP-B1-174,343 (E.I.Du Pont Company) are known to be intended to improve described polymer blend especially in cryogenic ductility.
Commercial the getting of component of polymer (C) is for example as a kind of ethene/acrylic ester/glycidyl methacrylate terpolymer (Lotader _AX, Elf Atochem company), ethylene/methacrylic acid glycidyl ester (Bondfast _, the molecular weight Mn=120 of E, 000, Sumitomo company), ethylene/methacrylic acid (Nucrel _, E.I.Du Pont Company), propylene/maleic anhydride (Himont company), propylene/vinylformic acid (Polybond _, BP chemical company) and with maleic anhydride modified ethylene/alpha-olefin copolymer (Tafmer _, Mitsui).Be preferably and select a kind of ethene/acrylic ester/glycidyl methacrylate terpolymer, be more preferably a kind of ethylene/methacrylic acid methyl esters/glycidyl methacrylate terpolymer (Lotader _AX 8900, Elf Atochem company, molecular weight (M n) be about 90,000).
In polymer blend, with a kind of ethylene/methacrylic acid methyl esters/glycidyl methacrylate terpolymer (Lotader _AX 8900) obtained good result.In daiamid composition, with a kind of with the maleic anhydride modified ethylene-propylene copolymer (Tafmer of 0.5% (weight) _, Mitsui) and obtained good result.
The organo phosphorous compounds (composition A) that is suitable for is for example organophosphate, phosphorous acid ester, phosphonic acid ester, phosphinate and phosphine oxide.Be preferably and select phosphoric acid ester, phosphonic acid ester or phosphinate.The example of such phosphorus compound is at for example " Encyclopedia of ChemicalTechnology ", Vol.10, and p.396 rising in (1980) has description.Much commercial getting, Resorcinol-two (diphenyl phosphate) oligopolymer for example, trade(brand)name Fyrolflex _RDP, AKZO-Nobel company (Holland); Cresyl diphenyl phosphate (CDP), trade(brand)name Kronitex _CDP, FMC Corp. (Britain); Methyl-phosphorous acid three (methylol) propyl alcohol ester, trade(brand)name Antiblaze _1045, Albright ﹠amp; Wilson company (U.S.); The polyphosphonic acid pentaerythritol ester, trade(brand)name Cyagard _RF 1041, American Cyanamid company (U.S.); Hostaflam _OP 910, the mixture of cyclic dimer and three polyphosphonates, Clariant company (Germany).
Be preferably, the phosphorus compound of selecting a kind of low volatility is as composition (A).
Be fit to be used as is for example melamine derivative, melamine condensation products or its mixture from melamine derived compounds (composition B).In the application's category, " melamine derivative " is understood as the melamine that one or more amine groups are replaced by one or more alkyl of selecting one group that forms from for example methyl, ethyl, vinyl, phenyl or tolyl, aryl, aralkyl or group of naphthene base.The example of this type of melamine derivative is N, N ', N " triphenyl melamine.Another example of melamine derivative is a melamine cyanurate.In the application's category, " melamine condensation products " is understood as a kind of compound that two or more melamine compounds are connected to each other and form, for example melam, melem, melon and more high-grade oligopolymer and piperitone, these can for example obtain with the technology described in the WO 96/16948.
Be preferably and select melamine, melamine cyanurate, melamine phosphoric acid ester, melam, melem or its mixture as composition (B).
What be fit to be used as melamine-phosphorus compound (AB) is as the melamine phosphoric acid ester compound melamine pyrophosphate and the melamine polyphosphate for example.
Be 1~50% (for the gross weight of this condensation polymer composition), better be 10~40% in the concentration of using in the condensation polymer composition according to flame retardant composition of the present invention.This concentration can be determined with experimental technique by the insider in principle.Composition (A), (B), (AB) and ratio (C) also can change in a wide region.The concentration of organo phosphorous compounds (composition A) can change in a wide region, for example, and between 0.5~20% (weight) (for the gross weight of this condensation polymer composition), more fortunately between 1~15% (weight).Melamine or can in a wide region, change from the concentration of its derived compounds (composition B), for example, between 2~25% (weight) (for the gross weight of this condensation polymer composition), more fortunately between 3~20% (weight), be preferably between 4~16% (weight).The concentration of polymer compound (composition C) can change in a wide region, more fortunately between 1~20% (weight), better between 1~10% (weight) (for the gross weight of this condensation polymer composition).The insider can determine that the best in its case forms by systematic Study.
Can be used as a kind of fire retardant systems in known all condensation polymer compositions of insider according to composition of the present invention.Be preferably, said composition is used for polyester and daiamid composition.
The example of the polyester that is suitable for is the copolyesters of polyalkylene terephthalates or itself and m-phthalic acid, for example polyethylene terephthalate (PET), polybutylene terephthalate (PBT), poly-naphthalic acid alkylidene diol ester, for example PEN (PEN), poly-naphthalic acid propylene glycol ester (PPN), poly terephthalic acid dihydroxy-benzene ester (PPT) and PBN (PBN), poly-biphenyl dicarboxylic acid alkylidene diol ester, for example poly-biphenyl dicarboxylic acid glycol ester, and the copolyesters of the above polyester.Be preferably and select PET, PBT, PEN, PPT or PBN.What also be suitable for is blocked copolyester, and this copolyesters also contains except that the hard polyester segment of selecting from above-mentioned a group from least a polyethers or the soft polyester segment of a kind of aliphatic polyester deutero-.The example of the blocked copolyester of this type of flexible body performance sees for details, for example, " Encyclopedia of Polymer Science and Engineering " (polymer science and engineering encyclopedia), p.75 Vol.12 plays (1988), John Wiley﹠amp; Sons and " Thermoplastic Elastomers " (thermoplastic elastomer), 2nd Ed., Chapter 8 (1996), Hanser Verlag, its associated viscera is looked as mentioned in this article.And then polyester blend also is suitable for, for example PET/PBT, PBT/ polycarbonate or PBT/ rubber blend.
The example of the polymeric amide that is suitable for is fatty polyamide PA-6, PA-6,6, PA-9, PA-11, PA-4,6 and copolyamide, with based on such as PA-6 or PA-6,6 and aromatic dicarboxylic acid and the aliphatie diamine for example semiaromatic polyamide composition of m-phthalic acid and terephthalic acid and hexanediamine, for example PA-6/6, T, PA-6,6/6, T, PA-6,6/6/6, T and PA-6,6/6, I/6, T.Be preferably and select PA-6, PA-6,6 and PA-4,6.And then polyamide blend also is suitable for.
According to composition of the present invention also can be used for containing the insider known, be generally used for condensation polymer composition, if do not add in the condensation polymer composition that will make other additive that effect of the present invention has a greatly reduced quality, specifically, this additive comprises pigment, processing aid for example releasing agent, crystallization accelerator, nucleator, tenderizer, ultraviolet ray and thermo-stabilizer, oxidation inhibitor etc.Can also randomly add the material that other can promote fire retardation, for example become carbon species such as polyphenylene oxide and polycarbonate and can influence the material of drip behavior, for example fluoropolymer such as tetrafluoroethylene.
Specifically, this condensation polymer composition contains a kind of mineral filler or toughener.The mineral filler or the toughener that are suitable for all are the known filler of insider, for example glass fibre, steel fiber, graphite fibre, Kevlar, granulated glass sphere, aluminosilicate, asbestos, mica, clay, chamotte and talcum.Better select glass fibre.
Can for example obtain in a simple manner according to condensation polymer composition of the present invention by means of melt-mixing.Then, be equipped with the extruding machine of measurement means than one of good utilisation, these measurement means are metered into all desirable compositions in this extruding machine, deliver to the feed throat of this extruding machine or deliver in this melt.
Followingly further specify the present invention with reference to embodiment and comparative example.
Embodiment
Example I and II and Comparative examples A and B
Following ingredients with different concns has prepared a collection of polymer blend:
Polycondensate: polybutylene terephthalate (PBT), Arnite _PBT is available from DSM engineering plastics company, Holland.
Composition A:Antiblaze _1045, available from Albright ﹠amp; Wilson company, the U.S..
Composition B: melamine cyanurate, Melapur _MC 50, available from DSM Melapur company, Holland.
Composition C:Lotader _AX 8900, available from Elf Atochem company, France.This composition is the terpolymer of ethene, methyl methacrylate (MMA, 24% weight) and glycidyl methacrylate (GMA, 8% weight), molecular weight M n=90,000.
Other additive:
-glass fibre: length 4~4.5mm, diameter 10~14um,
-releasing agent.
Prepare each composition with ZSK 30 Bitruders.
Make the injection molded sample with these compositions.They are carried out following test:
-the flame retardant resistance after 23 ℃/50% relative humidity (RH) 48 hours, measured according to UL-94 with 1.6mm;
-according to the elastic modulus detection of ISO 527-1;
-measure according to the tensile stress at break of ISO 527-1.
The result is comprehensively in table 1.
Table 1: halogen polymer blend.Quantity is all represented with the weight percent for each said composition gross weight.
Embodiment A ??I ?B ??II
Polyester 54.75 ??51.75 ?45 ??42
Composition A 10 ??10 ?10 ??10
Composition B 15 ??15 ?15 ??15
Composition C - ??3 ?- ??3
Other additive-glass fibre-releasing agent % % 20 0.25 ??20 ??0.25 ?30 ?- ??30 ??-
Flame retardant resistance is measured with 1.6mm according to UL94 behind 23 ℃/50%RH48 hour NC ??V-0 ?V-1 ??V-0
Apply for the first time flame-average afterfire time-average dripping time and apply flame-average afterfire time-average dripping time for the second time Second second second second 17.6 0 19 26 ??2.4 ??0 ??2.2 ??0 ?2.4 ?0 ?11.6 ?0 ??1.4 ??0 ??1.0 ??0
Young's modulus MPa 6621 ??6466 ?9386 ??9123
Tensile stress at break 87 ??86 ?75 ??74
NC=does not have classification according to V-0, the V-1 of UL-94 and V-2 classification " average dripping time "=from applying the time under flame to the first drippage.
Can reasoning from table 1:
-added ingredients C causes the afterfire time to shorten significantly in according to the composition of bleeding edge, therefore, has obtained the V-0 classification.
-Young's modulus and tensile stress at break are not subjected to composition (C) to add influence basically.
After 70 ℃ are nursed one's health 168 hours, also measured the flame retardant resistance of composition I and A.The result is incorporated in the table 2.Also obtained the shortening significantly of afterfire time under these conditions.
Table 2: halogen polymer blend
Embodiment Unit A ?I
Flame retardant resistance is measured with 1.6mm according to UL94 after 168 hours at 70 ℃ NC ?V-1
Apply for the first time flame-average afterfire time-average dripping time and apply flame-average afterfire time-average dripping time for the second time Second second second second ?30.8 ?40 ?28 ?9.0 ?4.4 ?0 ?12.0 ?0
EXAMPLE III~VI and comparative example C~F
Prepare a collection of polymer blend with following ingredients with different concns:
Polycondensate: polybutylene terephthalate (PBT), Amite _PBT is available from DSM engineering plastics company, Holland.
Composition A:
AB:Antiblaze _1045, available from Albright ﹠amp; Wilson company, the U.S..
NH:NH-1197 is available from Great Laker company, the U.S., the cyclic ester of tetramethylolmethane and phosphoric acid.
Composition B: the mixture of melamine (2.5% weight), melam (0.4% weight), melem (79.1% weight) and more senior melamine homologue (18% weight), available from DSM Melapur company, Holland.
Composition C:Lotader _AX 8900, available from Elf Atochem company, France.This composition is the terpolymer of ethene, methyl methacrylate (MMA, 24% weight) and glycidyl methacrylate (GMA, 8% weight), molecular weight M n=90,000.
Other additive:
-glass fibre: length 4~4.5mm, diameter 10~14 μ m.
These compositions prepare with ZSK 30 Bitruders.
Make the injection forming sample with these compositions.They are carried out following test:
-measure flame retardant resistance according to UL94 with 1.6mm in 23 ℃/50% relative humidity (RH) after 48 hours.
The result is incorporated in the table 3.It is evident that from these results the composition that comprises composition C has the afterfire time shorter than the composition of no composition C.In addition, in the presence of composition C, can reduce composition B quantity and without detriment to afterfire time of said composition.
Table 3: halogen polymer blend.Quantity all is the weight percent for each said composition gross weight.
Embodiment C ?III ??D ?IV ?E ?V ??F ?VI
Polyester ??45 ?42 ??48 ?45 ??45.6 ?43.6 ??45 ?42
Composition A ??10 ?10 ??7 ?7 ??6.4 ?6.4 ??AB:4 ??NH:4 ?AB:4 ?NH:4
Composition B ??15 ?15 ??15 ?15 ??18 ?18 ??17 ?17
Composition C ??- ?3 ??- ?3 ??- ?2 ??- ?3
Other additive-glass fibre ??30 ?30 ??30 ?30 ??30 ?30 ??30 ?30
Applying for the first time flame-average afterfire time applies flame-average afterfire time for the second time Second second ??1 ??1 ?1 ?1 ??10.6 ??6.8 ?2.0 ?1.0 ??10.6 ??2.8 ?3.0 ?1.0 ??1.0 ??3.0 ?20. ?2.0
Example VII A and comparative example G
Prepare daiamid composition with following ingredients with different concns:
Polycondensate: polymeric amide-6, Akulon _PA-6 is available from DSM engineering plastics company, Holland;
Composition A:P compound, Antiblaze _1045, available from Albright ﹠amp; Wilson company, the U.S.;
Composition B: melamine cyanurate, Melapur _MC 50, available from DSM Melapur company, Holland;
Composition C:Tafmer _MP 0610, available from Mitsui, and Japan;
Other additive:
-glass fibre: length 4~4.5mm, diameter 10~14 μ m.
Prepare these compositions with ZSK 30 Bitruders.
Table 4: halogen daiamid composition
Embodiment Unit G ?VII
Polymeric amide-6 45.00 ?43
Composition A 10 ?10
Composition B 15 ?15
Composition C - ?2
Other additive-glass fibre 30 ?30
Flame retardant resistance is measured with 1.6mm according to UL94 behind 23 ℃/50%RH48 hour V-2 ?V-0
Apply for the first time flame-average afterfire time-average dripping time and apply flame-average afterfire time-average dripping time for the second time Second second second second 1.0 0 13.0 21.8 ?1.0 ?0 ?4.6 ?0
Young's modulus MPa 10359 ?10079
Tensile stress at break 154.7 ?141.9

Claims (16)

1. halogen-free flame-retardant composition, said composition comprises at least or a kind of organo phosphorous compounds (A), melamine or a kind of from melamine derived compounds (B) or a kind of melamine-phosphorus compound (AB), it is characterized in that said composition also contains
A kind of polymer compound (C) wherein comprises at least a alkene and at least a compound that contain acid, acid anhydrides or epoxide group of 0.1~30% weight for the weight of this polymer compound that 2~12 carbon atoms are arranged.
2. according to the composition of claim 1, it is characterized in that composition (C) is a kind of polymkeric substance that has based on the chemical constitution of E, X and Y, wherein E is an ethene residue, and X is a residue that generates from following compound
Figure A0080813100021
In the formula
R 1=alkyl residue of 1~8 carbon atom arranged
R 2=H, CH 3Or C 2H 5And Y is a residue that generates from (alkyl) glycidyl acrylate.
3. according to the composition of claim 1, it is characterized in that composition (C) is a kind of ethene/acrylic ester/glycidyl methacrylate, ethene/acrylic ester/maleic anhydride, ethylene/methacrylic acid glycidyl ester, ethylene/methacrylic acid, propylene/maleic anhydride and propylene/acrylate copolymer.
4. according to the composition of claim 3, it is characterized in that composition (C) is a kind of ethene/acrylic ester/glycidyl methacrylate terpolymer.
5. according to the composition of claim 4, it is characterized in that composition (C) is a kind of ethylene/methacrylic acid methyl esters/glycidyl methacrylate terpolymer.
6. according to the composition of claim 1, it is characterized in that composition (C) is the maleic anhydride modified ethylene/alpha-olefin copolymer of a kind of usefulness.
7. according to any one composition in the claim 1~6, it is characterized in that this organophosphorus composition (A) or melamine-phosphorus compound (AB) are a kind of phosphoric acid ester, phosphinate or phosphonic acid ester.
8. according to any one composition in the claim 1~7, it is characterized in that selecting melamine, melamine cyanurate, melamine phosphoric acid ester, melam, melem or its mixture as (B) in the composition (AB).
9. condensation polymer composition, said composition comprise according to any one flame retardant composition in the claim 1~8, it is characterized in that this polycondensate is a kind of polyester or a kind of polymeric amide.
10. according to the condensation polymer composition of claim 9, it is characterized in that this polyester is selected from and comprise following one group: PET (polyethylene terephthalate), PBT (polybutylene terephthalate), PEN (PEN), PPT (poly terephthalic acid dihydroxy-benzene ester) or PBN (PBN).
11., it is characterized in that this polymeric amide is selected from one group that comprises polymeric amide-6, polymeric amide-6,6 and polymeric amide-4,6 according to the condensation polymer composition of claim 9.
12., it is characterized in that also existing a kind of mineral filler according to any one condensation polymer composition in the claim 9~11.
13., it is characterized in that this mineral filler is a glass fibre according to the condensation polymer composition of claim 12.
14. polymer blend, said composition comprises at least
-a kind of organophosphate or phosphonic acid ester;
-melamine cyanurate, melamine phosphoric acid ester, melam, melem or its mixture;
-a kind of ethene/acrylic ester/glycidyl methacrylate polymkeric substance;
-glass fibre;
-a kind of polyester is selected from and comprises following one group: PET (polyethylene terephthalate), PBT (polybutylene terephthalate), PEN (PEN) or PBN (PBN).
15. daiamid composition, said composition comprises at least
-a kind of organophosphate or phosphonic acid ester;
-melamine cyanurate, melamine phosphoric acid ester, melam, melem or its mixture;
The maleic anhydride modified ethene-alpha-olefin copolymer of-a kind of usefulness;
-glass fibre;
---plant polymeric amide, be selected from one group that comprises polymeric amide-6, polymeric amide-6,6 and polymeric amide-4,6.
16. such as description and with reference to the halogen-free flame-retardant composition and the condensation polymer composition of embodiment explanation.
CNB00808131XA 1999-05-28 2000-05-08 Halogen-free flame-retardant composition Expired - Fee Related CN100410303C (en)

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